NTSB description

HISTORY OF FLIGHT

On March 26, 2005, at 1348 eastern standard time, a Pilatus PC-12/45, N770G, was destroyed when it impacted the ground near Bellefonte, Pennsylvania. The certificated private pilot and five passengers were fatally injured. Visual meteorological conditions prevailed at the accident site; however, instrument meteorological conditions prevailed at the altitude where the accident sequence began. The airplane was operating on an instrument flight rules flight plan, and departed Naples Municipal Airport (APF), Naples, Florida, about 0953, destined for University Park Airport (UNV), State College, Pennsylvania. The personal flight was conducted under 14 CFR Part 91.

According to representatives of the two families onboard, the airplane was en route to State College so family members could watch a son's lacrosse game. The families then intended to return home to the Providence, Rhode Island area.

A review of voice communications and radar data indicated that the airplane was inbound on the RWY 24 ILS instrument approach, when, at 1345, the pilot was advised by the New York Center controller that he could change from the New York Center radio frequency, to the University Park common traffic advisory frequency. After the pilot acknowledged the advisory, there were no further transmissions from him. The last radar return, at 1348, indicated the airplane was about 3,500 feet, 3 nautical miles from the runway and 2 nautical miles inside PENUE LOM, the final approach fix for the localizer instrument approach.

Near the accident site, a witness saw the airplane flying overhead. His attention had been drawn to it due to the amount of time it had been there. He looked up and saw the airplane "banking steeply" before it started "spiraling down" in a "counter-clockwise," nose low, left turn. The wings were "almost straight up and down," and the airplane made "8-10 circles" before briefly recovering. The witness then saw the airplane "gain slight control" before it disappeared behind a tree line.

Several other witnesses were interviewed by Pennsylvania State Police officers. One witness reported seeing the airplane over some pine trees, near a new correctional facility. "Its right wing was up and then it went nose down to the ground after doing a counter-clockwise spin." Additional witnesses reported seeing the airplane "with its left wing down and right wing up, doing a spin toward the ground," and "nose down doing approximately three to four slow revolutions to the earth."

Another witness was riding in a vehicle when he heard a "loud whoosh" over his car. The airplane impacted the ground nearby in a nose-down, slightly left bank attitude, and the tail of the airplane "ripped off." The witness rushed from his car to try and help, and did not see any ice on the airplane or on the ground, and did not feel any ice when he was walking on the wing to try to assist the occupants.

An off-duty EMS responder was driving nearby and saw the airplane in an "extreme nosedive," but didn't see it spiraling. He then saw it hit the ground, and rushed to the scene to help. He also noted that there was no ice on the airplane.

An initial responder to the scene was an off-duty Pennsylvania State Police corporal whose primary job with the State Police was vehicular accident reconstruction. The corporal stated that he did not see the accident, but responded to the scene "within seconds" of its occurrence. The corporal noted no ice on the airplane, and photographs he took of it about 15 minutes later revealed no presence of ice.

The Director of Centre County, Office of Emergency Services, also stated that none of his first responders saw ice on the airplane.

The accident occurred during the hours of daylight, in the vicinity of 40 degrees, 52.73 minutes north latitude, 77 degrees, 46.64 minutes west longitude.

According to training records, the pilot completed Pilatus PC-12 initial training at a SimCom training center on March 20, 2003, and completed recurrent training at SimCom on March 8, 2004, and March 22, 2005. On his application for the March 22, 2005, training, the pilot wrote that he had 1,645 total flight hours, 385 instrument flight hours, 250 flight hours in the previous 12 months, and 173 hours of flight time in the PC-12.

AIRPLANE INFORMATION

The airplane, serial number 299, was manufactured in 1999, and powered by a Pratt and Whitney Canada PT6A-67B engine. The airplane was originally registered in France, but subsequently registered to J2W Aviation, LLC, on April 30, 2003. According to a family representative, the LLC was 60 percent owned by the pilot, 20 percent owned by one of the passengers, and 20 percent owned by a third person.

Airplane operating hours were not available at the accident scene. However, according to logbook records, the airplane's latest 100 hour inspection was completed on December 1, 2004, at 1,523 operating hours, and an engine compressor wash was accomplished on March 9, 2005, at 1,612 hours.

The airplane was equipped with inflatable neoprene de-ice boots on the leading edges of the wings and horizontal tail surfaces. According the airplane's Pilot's Information Manual, "the purpose of the [boots] is to inflate and dispense any ice which may accrete on their surface during flight in atmospheric icing conditions." The boots were to be operated by the pilot by moving a switch on the DE-ICING control panel.

According to the airplane's flight manual, section 4.23, "detection of icing conditions and ice accretion on the aircraft is by the pilot visual identification on the left hand wing leading edge." In addition, a representative from Pilatus stated that a pilot could also see ice forming on a 2-inch strip around the windshields where they weren't heated.

METEOROLOGICAL INFORMATION

Weather, reported at 1400, at University Park Airport, included winds from 130 degrees true, at 3 knots, overcast skies at 1,700 feet above the ground, temperature 39 degrees Fahrenheit, dew point 32 degrees Fahrenheit, and an altimeter setting of 30.10 inches Hg. The accident site elevation was about 150 feet lower than the airport elevation.

There were two AIRMETs (weather advisories) in effect. One, issued at 1215, and valid until 1600, called for occasional moderate rime and/or mixed icing in cloud and precipitation between 6,000 feet and 13,000 feet. Another AIRMET, issued at 1405, and valid until 1600, updated the previous advisory and called for occasional moderate rime and/or mixed icing in cloud and precipitation below 13,000 feet, with conditions continuing beyond 1600.

The pilot of a Beech Travel Air landed at University Park Airport at 1332, and reported that he had been inbound at 7,000 feet, then descended to 6,000 feet, encountering clouds about 6,500 feet. At 6,000 feet, the temperature was 22 degrees, and the airplane "started picking up a little ice." The pilot was then told by air traffic control to descend to 4,000 feet. As he descended, the airplane "picked up more ice," which was "mixed, but more clear ice than rime ice." The pilot then held for 10-15 minutes, and picked up a total of 2 - 2 1/2 inches of ice on the leading edges of the wings. The windshield heat was on, and slush ran off the windshield. The pilot noted that the temperature was 27 degrees. He subsequently declared an emergency, and flew the ILS RWY 24 approach. When the airplane cleared the clouds, the ice "immediately started peeling off the airplane;" however, upon landing, there was still some ice on wing leading edges, cowlings and air filters.

A second pilot was flying a Cessna 172 to University Park from Williamsport, Pennsylvania, at 4,000 feet. When he initially left Williamsport, the sky was clear; however, as he neared the initial approach fix for the ILS RWY 24 approach, he was "totally in the clouds," but experienced no icing. The landing, at 1320, was uneventful. The pilot subsequently prepared for a takeoff back to Williamsport, but due to the missing Pilatus, had to wait until 1449. The pilot departed to the south, and was instructed by air traffic control to head 100 degrees magnetic, and climb to 5,000 feet. About 5-8 minutes after takeoff, approximately 3,500 feet, the airplane began to pick up some icing, and by 5,000 feet, had moderate icing. The pilot was not able to hold altitude, and requested a return to University Park. Once the airplane cleared the clouds, about 1,700 feet, ice began to come off the airplane, including the propeller. The pilot subsequently landed about 90 knots, and after shutdown, noticed about 1/8 inch of clear ice still on the airframe.

AIRPORT INFORMATION

University Park Airport had two runways, 06/24 and 16/34. Runway 24 was 6,701 feet long and 150 feet wide. Published elevation was 1,239 feet above mean sea level (msl). There was no operating control tower at the airport.

AIDS TO NAVIGATION

The ILS RWY 24 approach included an inbound course of 244 degrees magnetic. PENUE LOM was located along the inbound course, at a glide slope elevation of 3,092 feet msl, 5.5 nautical miles from the runway. The missed approach point was located along the inbound course, at a glide slope elevation of 1,426 feet msl, or 200 feet above the runway threshold.

On March 29, 2005, as a result of the accident, the ILS was flight-checked by the FAA, and found to be "satisfactory."

WRECKAGE AND IMPACT INFORMATION

The wreckage was located next to an asphalt driveway adjoining a newly-constructed, but unoccupied, correctional facility, about 3.3 nautical miles, 070 degrees magnetic from the end of the runway. The wreckage path, initially heading 040 degrees magnetic, began with gouges in the driveway for about 20 feet, then a turn to 010 degrees, and off the driveway for another 30 feet, to the main wreckage. The nose of the airplane came to rest heading about 230 degrees magnetic.

Some of the gouges in the driveway were consistent with progressive propeller strikes.

The airplane came to rest in several pieces, with the fuselage twisted behind the main wing spar. The front part of the fuselage came to rest on its right side, and the aft portion came to rest upside down. The left wing was detached from the fuselage, while the right wing remained attached.

The tail section, aft of the pressure bulkhead, came to rest on the other side of the driveway.

The underside of the fuselage, forward of the main wing spar, exhibited upward crushing, at an angle consistent with about 15 degrees nose-down, and 10 degrees left-wing-down attitude at the time of impact.

The forward portion of the left wingtip exhibited impact damage, consistent with a gouge in the ground next to the driveway, and in line with the direction of travel.

There was no evidence of fire.

All flight control surfaces were accounted for at the scene. Flight control continuity was confirmed to the wings, and cables to the rudder and elevators exhibited overload, "broomstraw" breaks.

Visual flap examination, and flap lever and worm drive positions revealed that the flaps were up. Inspection of the landing gear and landing gear handle revealed that they had been down.

The position of the inertial (ice) separator actuator corresponded to the inertial separator outlet door being open.

The instrument panel was destroyed, and most of the instruments were either destroyed, unreliable, or digital. The deicing panel was recovered, and bent in the middle; however, switch positions "as found" were: Probes: ON; Props: ON; Boots: 3 MIN; Left Windshield: LIGHT; Right Windshield: LIGHT.

The propeller was separated from the engine. One blade was separated from the hub, and exhibited approximately 1-inch-deep, mid-span gouges in both leading and trailing edges. The leading edge gouge was about 7 inches in length, while the trailing edge gouge was about 6 inches in length. A second blade was bent at a 90-degree angle, and exhibited a 90-degree bend, aft. The third and fourth blades exhibited progressively less bending. All blades exhibited varying degrees of chordwise scratching.

The engine was still attached to the airframe nacelle, and was on its right side. The forward cowlings were separated by impact, and the condition of the aft part of the engine could not be ascertained due to encasement by compacted airframe components.

The forward housing of the reduction gearbox was fractured axially. The reduction gearbox chip detector boss was fractured, and the chip detector not recovered.

The engine exhausts exhibited malleable bending, and there were no pock marks or dimples noted in the stacks.

MEDICAL AND PATHOLOGICAL INFORMATION

On March 27, 2005, an autopsy was conducted on the pilot at Mount Nittany Medial Center, State College, Pennsylvania, with blunt force trauma listed as the cause of death. Toxicological testing was subsequently performed at the FAA Bioaeronautical Sciences Research Laboratory, Oklahoma City, Oklahoma, with no drugs and no carbon monoxide detected.

TESTS AND RESEARCH

- Recorders -

There was no cockpit voice recorder or flight data recorder installed on the airplane, nor were there any requirements that they be installed.

The following four items were recovered from the accident scene and forwarded to the Safety Board Recorders Laboratory. Laboratory examination results included:

- Hand-held GPS Unit -

The hand-held GPS unit exhibited impact damage, and the case was compromised. The unit was forwarded to the manufacturer, where several internal components were replaced. Upon activation, the unit displayed "all stored data was lost."

- Engine Trend Monitor -

The engine trend recorder was subsequently forwarded to the manufacturer for download. According to the manufacturer's director of engineering, the trend recorder in the accident airplane was a second-generation unit, and the latest version would have had a much larger memory that would have provided the last 30 minutes of information prior to power termination.

The accident recorder did not exhibit internal damage, and the unit was powered for data retrieval. The memory was 100 percent full. Engine recording samples commenced Jan 20, 2003, and ended May 01, 2003. During that period, engine operation and the associated trends appeared normal. There were no exceedances recorded during that period. There were also two events recorded on February 06, 2005, indicating a hot start.

In the installed unit, the data storage requirement for engine run and trend was larger than the event storage requirement. The unit therefore would have had enough capacity to store the later hot start events but not enough capacity for the more-current engine run or trend information. In addition, due to the data storage limitation, there was a requirement for a trend review every 2 days. There was a flashing lamp crew alert when the memory was 85 percent full. Once the memory reached 100 percent, the alert lamp would have remained solid.

- Attitude Heading Reference System (AHRS) -

The unit was extensively damaged. The Safety Board Recorders Laboratory was able to download historical information from the central processing unit board, which was then forwarded to the manufacturer for review. According to a manufacturer's representative, there was one BIT entry (Heading Synchro 1 Fail) stored about 125 hours before the accident, "classified as non-critical."

- Flap Control Unit -

Upon disassembly, it was found that every socketed microchip had been ejected from its circuit. According to the manufacturer, the only data potentially recoverable would have been error codes relating to the operation of the unit itself.

According to a Recorders Laboratory Engineer, the nature of the data and the low likelihood of data survival precluded further flap cont